作者
Tao Liu,Tao Yang,Ruijie Ma,Lingling Zhan,Zhenghui Luo,Guangye Zhang,Yuan Li,Ke Gao,Yiqun Xiao,Jianwei Yu,Xinhui Zou,Huiliang Sun,Maojie Zhang,Top Archie Dela Peña,Zengshan Xing,Heng Liu,Xiaojun Li,Gang Li,Jianhua Huang,Chunhui Duan,Kam Sing Wong,Xinhui Lu,Xugang Guo,Feng Gao,Hongzheng Chen,Fei Huang,Yongfang Li,Yuliang Li,Yong Cao,Bo Tang,He Yan
摘要
There is an urgent demand for all-polymer organic solar cells (AP-OSCs) to gain higher efficiency. Here, we successfully improve the performance to 16.09% by introducing a small amount of BN-T, a B←N-type polymer acceptor, into the PM6:PY-IT blend. It has been found that BN-T makes the active layer, based on the PM6:PY-IT:BN-T ternary blend, more crystalline but meanwhile slightly reduces the phase separation, leading to enhancement of both exciton harvesting and charge transport. From a thermodynamic viewpoint, BN-T prefers to reside between PM6 and PY-IT, and the fraction of this fine-tunes the morphology. Besides, a significantly reduced nonradiative energy loss occurs in the ternary blend, along with the coexistence of energy and charge transfer between the two acceptors. The progressive performance facilitated by these improved properties demonstrates that AP-OSCs can possibly comparably efficient with those based on small molecule acceptors, further enhancing the competitiveness of this device type.